Liquefaction and internal logic flow processing unit and prioritized cost effective machine apparatus used for the creation of a liquid fuel material made from the underwater arching of carbon rods. Apparatus emphases are placed on cost-effectiveness and energy saving liquefaction process for the replacement of petroleum gasoline

ABSTRACT

A machine apparatus used for the creation of a combustionable liquid fuel material herein known as Type-A suitable for replacement of petroleum gasoline. Primary objective and conclusion is: 1) Production of Type-A; 2) the most cost-effective Type-A production apparatus possible. Graphite electrodes immersed underwater are electronically arched. Resulting after combustion carbon emissions ionize with mostly hydrogen and oxygen from the water at about 5000 degrees Celsius. Post-plasmatic discharge rises is captured, refrigerated and/or pressurized internally into Type-A. All apparatus power requirements are satisfied by Type-A internally with the exception of an initial bootstrap power-up cycle. An apparatus heat exchange run steam turbine provides a secondary energy provision. An internal logic flow processing system detects and prioritizes through the use of input ports availability of null-costing solar, wind and steam turbine production of electricity prior to using Type-A for apparatus power requirements. A recycling consumable graphite rod component furthers existing cost-effectiveness.

BACKGROUND OF THE INVENTION

The instant apparatus is an answer to replacing the harmful carbon based fuel emissions that are depleting the atmospheric ozone layer and causing global warming. All fossil fuels such as uranium, coal, oil are the primary means from which mankind has satisfied its energy requirements. In order to render energy development without harmful emissions contempory technologies such as wind turbines and solar technologies have been employed. The problem with steam turbine energy production is that it is primarily used in conjunction with nuclear power which by-product is harmful to the environment.

Contemporarily such technologies uses alternative energy sources that are able to generate electrical power through magnetism and combustion have also turned to cold fusion but have not been able to conclusively develop the idea or determine its safety to the living creation of our world.

The answer to these problems has been here all through the ages: Hydrogen, Carbon and Oxygen. Although mankind has turned fleetingly to these items they have always over thought the process for energy creation through these molecular structures. The problems are 1) as stated above—harmful to humans and all living creatures, 2) costly to make and use alternatives as the cost of production and application negates the making of truly environmentally safe alternatives in our capitalistically based society.

This apparatus allows for a reverse over thinking of energy production. It creates a liquid fuel material made from the nasty stuff comprised in a carbon based after combustion (such as carbon monoxide) and turns it into a fuel that burns that nasty stuff up during the energy creating combustion process. The apparatus then uses that enveloped fuel to propel itself for fuel creation. To conserving on apparatus created fuel usage during fuel production the heat exchange mostly derived from the liquid fuel material powered generator exhaust pipe provides an apparatus steam turbine with steam which also uses a energy conserving perpetual motion process for electrical power generation.

The instant machine apparatus uses the best of the emission free technologies available such as solar and wind turbine when available. When these technologies are not available the apparatus uses its own creation of liquid fuel material until the heat exchange has derived enough energy to power a steam turbine for apparatus power requirements.

SUMMARY OF THE INVENTION

Whereas the apparatus mentioned in claim (1), the machine mentioned and described herein, will also be known as a “Mini Project Type-A Liquefaction Machine” which creates a liquid gas to be used as an economical replacement for petroleum gasoline and/or for all other possible uses of the liquid now known as “Type-A” and owned, claimed and invented by Thomas G. Hayes.

1. From an outside source of water the tank is filled and used to immerse and electrically arc carbon rods thereby creating a post-plasmatic discharge, which is then liquefied by the process herein described into “Type-A”.

From a one time only bootstrap electrical outlet a direct exterior current will be accepted by all units using and needing an initial electrical supply such as the arching module, the logic flow processing unit, the vacuum and compression unit, the refrigeration unit and all other apparatus power requirements.

An arching mechanism containing electrode graphite rods sitting at a depth sufficient to be submerged within water will initiate electrical arching.

The arching will separate the hydrogen and oxygen at 5000 degrees Celsius and the after emissions of the carbon arching will attach to the hydrogen creating a completely and/or separate structure comprised of a post-plasma discharge.

2. This post plasma discharge will be captured, refrigerated, pressurized and processed into a liquid fuel material (Type-A). The apparatus will then use Type-A to self power the invention with use of an electricity producing Type-A fueled generator.

3. The liquid fuel material (Type-A) will be refined later for use if desired and/or decided by the owner/inventor Thomas G. Hayes. This includes all output including after emissions and or by-products of the liquid gas known as Type-A.

4. As the water usage tanks are depleted the logic flow processing unit will tell the apparatus to refill the water tanks.

SUMMARY OF THE DRAWINGS

FIG. 1. Is a section of the underwater graphite rod electrode arching mechanism. This section drawing is of the hydraulic arms by which the revolvers and cylinders holding the expendable electrode graphite rods are brought into contact for underwater electric arching (FIG. 1, No. 3). Each arm holds a revolver with a multiple of cylinders (FIG. 1, No. 1). Each cylinder holds a graphite rod electrode, which rotates or spins in opposite directions as the electric arc occurs (FIG. 1, No. 2). A specific spark gap is calibrated between the electrodes by the apparatus logic flow-processing unit to insure continual optimum production of carbon by-product material emissions and heat (FIG. 1, No. 3). As the graphite rod is expended, through the use of mostly, combustion, gravity and processing unit spark gap depth sensors, a continual arc contacting motion is achieved (FIG. 1, No. 3). Rising through the water the post-plasmatic discharge (FIG. 1, No. 4) continues upward to the discharge capturing hood (FIG. 1, No. 5).

The mechanism in FIG. 1 increases productivity of the first stage fuel material process and reduces maintenance time required when a single pair of graphite electrodes are consumed which is beneficial to the cost effectiveness of the over all apparatus performance.

FIG. 1. (FIG. 1, No. 1.) Is one of the two multiple cylinder revolvers at the contacting end of the hydraulic arms within the electric arching chamber component of the apparatus. The purpose of this revolver is: 1) multiple electrodes are configured for electric arc combustion (which supplies the carbon atoms for binding with the hydrogen atoms) at an optimally cost-efficient pace saving maintenance shut down time. 2) each cylinder is able to individually spin or rotate the contained electrode in opposite directions as it is consumed (FIG. 1, No. 2).

FIG. 2. Is the steam turbine showing the heat-derived form the heated exhaust pipe of the Type-A generator through use of the apparatus heat exchange process. As water is heated continually and replaced in the apparatus electrical arching chamber (Shown previously in FIG. 1) it is released to the heat exchange water chamber (FIG. 2, No. 11). Electric energy production is derived from the apparatus heat exchange system and provides an auxiliary power supply for apparatus power requirements (FIG. 2, No. 9). A heated exhaust pipe from the Type-A gas generator runs through the heat exchange water chamber (FIG. 2, No. 1). Output exhaust consisting of the Type-A generator is disposed of after running through the water chamber (FIG. 2, No. 2). The water in the heat exchange chamber (FIG. 2, No. 3) is heated above the boiling point for steam production (FIG. 2, No. 4). Constant steam pressure tank with thermostat set for 280 to 300 degree (FIG. 2, No. 4) provides energy to run the steam turbine generator (FIG. 2, No. 5). An Internal capacitor and regulator (FIG. 2, No. 6) is included in the turbine and electric power created is sent to both the apparatus (FIG. 2, No. 9) and as a electrical supply to the heating coil (FIG. 2, No. 7). After passing through a battery pack (FIG. 2, No. 8) an alternative heating coil is powered by the turbine generator (FIG. 2, No. 10) which furthers the energy production of the heat exchange in a type of virtual perpetual motion.

DETAILED DESCRIPTION OF THE INVENTION

A machine apparatus used for the creation of a combustionable liquid fuel material suitable for replacement of petroleum gasoline used in automobile engines processed with a cost-effective apparatus which utilizes a prioritizing on-board logic flow processing unit. Machine apparatus creates a liquid fuel material made from the immersed electrical arching of carbon rods and heat separated hydrogen and oxygen formed into an ionized plasma. Initial post-plasmatic material discharge is captured by use of a hood and subsequently vacuumed, pressurized and cooled in the apparatus liquefaction component and stored in first stage storage tanks for subsequent apparatus self-propulsion.

After an initial bootstrap power-up cycle all conventional outside sourced electricity is turned off and the machine then uses its own fuel material whenever null-costing alternative input energy sources are not available for all energy requirements during lifetime usage of the apparatus.

The first stage consists of catching the graphite electrode electric underwater arching after combustion emissions ionized with hydrogen separated from the oxygen at about 5000 degrees Celsius. Resulting plasma is captured and subsequently refrigerated and/or pressurized. The liquid fuel material output is then placed into an initial storage tank for apparatus use. Liquid fuel material output known as Type-A is then used to power on electricity producing generator, which then supplies needed electricity to the arching component.

As the generator exhaust system is heated a heat exchange process is utilized to power steam turbine generators for the creation of electricity needed for the arching component and other apparatus process functions. This saves on the amount of initial liquid fuel material needed for the liquefaction process.

The apparatus involves a logic flow-processing unit to detect when to switch power sources comprising of a combination of the liquid fuel material created (Type-A) and the steam turbine electricity generator powered by the apparatus heat exchanger for the most cost effective processing and creation system of any such fuel production.

Outside energy input ports are integrated within the apparatus so that when made available the logic flow-processing unit detects and is able to integrate the use of wind and solar energy creation technology to further the apparatus' cost effectiveness.

The second stage of the liquefaction process initiates when all apparatus power supply is satisfied. This involves continual catching of rising post-plasmatic discharge material produced by the underwater arching component and utilization of a combination of pressure and/or refrigerating process. The resulting liquid fuel material (Type-A) is then made available for subsequent storage as a superior environmentally safe liquid fuel material and cost-effective replacement of petroleum gasoline used in automobiles.

The re-tooling of the automobile industry is not needed for Type-A automobile engine fuel combustion with the exception of only slight modifications to the automobile gas tank, which can be accomplished as easy as the changing of an exhaust muffler by a muffler shop.

The primary objective and conclusion of the instant apparatus is: 1) To produce the herein mentioned liquid fuel material (Type-A); 2) Type-A liquid fuel material production in the most cost effective way possible. These primary objectives and conclusions are accomplished by a graphite rod recycling component and through the use of a internalized on-board logic flow processing system that detects the availability and prioritizes the use of solar, wind, and/or steam turbine production of electricity prior to using the apparatus' own liquid fuel material as a self powering energy source to the underwater carbon rod arching component and other power requirements of the apparatus. 

I. Apparatus for cost-effective energy-saving and/or energy production and/or liquefaction process system utilizing graphite electrode electric underwater arching after combustion emissions ionized with hydrogen separated from the oxygen at about 5000 degrees Celsius. The resulting rising post-plasmatic material discharge is captured and subsequently refrigerated and/or pressurized. Process output is a liquid fuel material suitable for replacement of petroleum gasoline used in automobile and truck engines. II. Apparatus is energy conserving and self-propelling utilizing a virtual perpetual motion processing system after an initial bootstrap electrical charge provided by an auxiliary source. Method of process for claim 2: Apparatus logic flow processing system is structured for providing electrical power as follows: 1) an onsite power source such as a gas powered generator or electrical outlet provides initializing boot-strap power to the apparatus. 2) The first cycle of the apparatus creates the first usable unit of Type-A liquid fuel material by the liquefaction process system. The process uses graphite electrode electric underwater arching after which separates the hydrogen from the oxygen in the water at 5000 degrees Celsius and above. The after combustion emissions of the discharged and decomposed graphite electrodes combine with hydrogen atoms creating an ionized plasma which cool down in the water chamber as they rise up and out of the water. The resulting rising post-plasmatic material discharge is captured by vacuum and compressor and subsequently refrigerated and/or pressurized. Process output is Type-A a liquid fuel material 3) The logic flow processing unit detects when Type-A is available for apparatus use and initiates start-up of the internal electricity producing generator powered by Type-A fuel material. 4) When all power requirements of the apparatus are satisfied by the internal Type-A fuel generator mentioned above in step (3) all outside power sourcing is terminated. During the lifetime of the apparatus the bootstrap process described above in steps (1) through (3) will not be required. III. Apparatus utilizes an internal logic flow processing unit which prioritizes input electric energy sources resulting in maximum cost-efficient production of liquid fuel material output. Input energy source ports allow for use of auxiliary energy conserving techniques such as wind, solar, and steam turbine electric generators to avoid usage of fuel material produced during the liquefaction process Steam Turbine means an integral component of the apparatus herein described as a piece of equipment that converts high-pressure steam derived from water heated by the exhaust pipe of the Type-A electricity producing generator, produced in a boiler, into mechanical energy by rotating blades in a cylinder The turbine then turns a generator shaft to produce electricity. Wind Turbine means an electricity-producing turbine powered by the wind. Solar techniques mean available solar technologies and/or power—energy from the sun that is converted into thermal or electrical energy. Method of process for claim 3: 1) Apparatus is equipped with a central processing unit programmed with an auxiliary detection and logic flow processing software. 2) Apparatus is equipped with auxiliary null-costing energy source input ports. These input ports make the apparatus available for solar and wind produced electricity use. This avoids apparatus use of Type-A liquid fuel and increases fuel material production output. 3) Apparatus Type-A fueled generator start-up (such as after a maintenance period) is immediately followed by the processing units query of the input ports auxiliary energy source availability. E.g. If auxiliary input port energy is available the Type-A fueled generator is terminated and all apparatus power requirements are supplied by the input ports auxiliary energy source. Upon depletion of auxiliary energy availability (such as from cloudiness of lack of wind) the apparatus Type-A fueled generator will start and take over apparatus power supply requirements. 4) The apparatus heat exchange unit consists of a water chamber and steam chamber. The Type-A fueled generator's exhaust system and tailpipe run directly through the heat exchange water chamber allowing the heat exchange to simultaneously cool apparatus heat while harnessing heat for the creation of steam. The heat exchange steam chamber is equipped with a thermostat set for 280 to 300 degrees Fahrenheit to ensure continual steam pressure supplied to the steam turbine used for producing and satisfying apparatus energy requirements. As soon as enough electricity to satisfy all apparatus power supply requirements is produced by the turbine the central processing unit directs the Type-A fueled generator to terminate and turbine produced electricity is directed to several source outputs: A) A heating coil which is located in the heat exchange water chamber is thus powered and thereby used to heat the water to above its boiling point of 212 degrees Fahrenheit. B) The steam chamber regulates the heating coil by thermostat set to keep steam temperature at between 280 to 300 degrees Fahrenheit thereby insuring constant pressure for turbine electrical production. This creates a cycle using a virtual perpetual motion technique to heat a coil by way of energy generated by steam creation by the same coil. C) Thus, it can be seen and made apparent through claim parts (A) thru (B) immediately above that the instant apparatus uses a virtual perpetual motion process while harnessing the apparatus' own integral steam turbine heat exchange electric production. A cycle and/or almost endless loop of energy production is created by the turbine powering the coil and the coil powering the turbine. D) Surplus electricity is detected when available from the heat exchange steam turbine production by the apparatus logic flow-processing unit. All apparatus power requirements are then derived from the surplus electricity drawn off the heat exchange driven turbine. E) At some point the power needed to heat the coil will be depleted and the central processing unit will check for null-costing input port energy source availability such as wind or solar and if these are not available the central processing unit will initiate start-up procedures for the use of supplying power requirements of the apparatus thru the Type-A fueled generator and the whole cycle mentioned above (Claim-3; part-3 to end) will restart. IV. Apparatus utilizes recyclability of expendable graphite material used in the liquefaction fuel material production process. Method of process for claim 4: The water chamber component whereby the electrode is submerged and underwater electrical arching takes place is lined with a disposable and removable refuse catch bag. The refuse graphite catch bag lines the entire water chamber. Directly under the bag lining the water chamber floor and lower sides is an electric magnet operated by the apparatus electrical power supply. This magnet insures cleanliness of the water by magnetically drawing chips and pieces of graphite that may escape discharging and decomposing during the arching process. Subsequently these graphite chips and refuse may be collected when changing the bag during machine maintenance shut down periods and recycled. This is a cost saving mechanism regarding the only expendable material used in the over all liquefaction process: Graphite. V. Apparatus electrical arching mechanism discharges and decomposes the graphite/carbon rods while immersed under water and separates the hydrogen from the oxygen of the water at about 5000 degrees Celsius during the arching process. This after combustion material and process creates plasma of mostly ionized hydrogen, oxygen and carbon atoms, which combine in various forms, cool down in the water and bubble to the surface. The result of the after combustion emission material is then collected and compressed into refrigerated and/or pressurized tanks. The result is The Mini Project Type-A liquid fuel. Method of process for claim 5: 1) The apparatus provides an electrical charge which causes an electrical arc between two electrodes made of expendable graphite rods varying from four (4) to six (6) inches in diameter. Both rods are cylindrical in shape and oppositely facing each other. Both rods are positioned so that they slant downward from the revolver cylinders that provide them. The rods at their ends are immersed in a chamber of water. 1A) The apparatus is equipped with a water tank filled with water for the under water immersion of the electrically charged electrodes. 2) When the electrical charge is applied the electrodes arch decomposing and discharging the graphite material in the electrodes. This creates an after combustion of carbon atoms. Simultaneously the water in the arching chamber is heated to above 5000 degrees Celsius. 3) This heat causes a separation of the hydrogen atoms from the oxygen in the water. 4) Ionized plasma is thereby created of mostly hydrogen, carbon and oxygen. This plasma is lighter than air and so rises up through the water cooling the plasma and joining the atoms into a new post-plasmatic material. 5) The post-plasmatic material discharge is then captured in a vacuum and compression chamber and delivered to a refrigerating and/or pressurization tank for density, consistency and state desired by the instant owner/inventor. 6) The resulting liquid is a liquefied fuel material (Type-A). VI. Apparatus for liquefaction fuel material production (Type-A) maintains through a logic flow processing unit and the apparatus electrical underwater graphite rod electrode arching mechanism a continual underwater immersion of the energized electrode rods so as to sustain arching across the spark gap configured. This provides heat above 5000 degrees Celsius in order to create ionized plasma of mostly hydrogen, carbon monoxide and oxygen which after cooling and rising into a post-plasmatic process material is captured by a hood encompassing the arching mechanism and water arching chamber. This post-plasmatic material is then vacuumed from the hood into a refrigeration and/or pressurizing process unit for the final stages of the liquefaction apparatus process. Method of process for claim 6: Apparatus electrical underwater graphite rod electrode arching mechanism comprised of: 1) Hood means a mostly square covering made of a synthetic material formed with a gradually funneling top. The hoods primary purpose is to capture the post-plasma discharge created from the underwater electrical arching mechanism directly below the bottom of the hood. It is the means of transference of the post-plasma discharge into the liquefying refrigeration and/or pressurization unit of the apparatus. The primary means of transference of the post plasma from the hood to the liquefying refrigeration and/or pressurization unit of the apparatus is through the use of a vacuum and compressor. 1A) the hydraulic arms by which the revolvers and cylinders holding the expendable electrode graphite rods are held and extended and adjusted for desired width of the electrical arching spark gap between the electrodes. The hydraulic arms are above the water at their elbows (as described and pictured in patent drawings, see page-xx) and immersed under water at their revolvers (patent drawings, page-xx). 2) Each of the two revolvers consists of a desired variable of graphite electrode rod holding cylinders. 3) Each revolver rotates in opposite directions and adjusts so as to remove the expended empty cylinders of each revolver from facing each other while simultaneously bringing two unused and fresh electrode graphite rod holding cylinders to the closest point between the revolvers. 4) Each of the two closest cylinders next extend the graphite electrode to an acceptably configured electrical arching gap as directed by the on-board internal logic flow processing unit as described in claims (2) and (3) above and/or elsewhere in this patent claim document. 5) Each of the electrode cylinders holding the configured electrode to its defined gap initiates an electric current that consists of a negative and positive electrical contact causing the electrodes to arc. 6) As each arching graphite rod is expended the processing unit rotates the facing and electrically contacting graphite rod electrodes in opposite directions so that the peripheral edges of the rods continue their spark gap as they are expended. This cylindrically rotating of the electrode rods when they are in contact also insures consumability of the entire rod. 7) As each cylinder holding a graphite rod electrode which rotates or spins in opposite directions as the electric arc occurs, a specific gap is calibrated between the electrodes by the apparatus logic flow processing unit to insure continual optimum production of carbon by-product material emissions and heat and over-all configurable performance of the apparatus electrical underwater graphite rod electrode arching mechanism. 8) The result of the carbon after combustion emission and the heat it produces both separates the hydrogen and the oxygen of the water at 5000 degrees Celsius while providing a carbon atoms which ionize into plasma, rise and cool into a post-plasmatic material. The post-plasmatic material is then captured in a hood encompassing the arching and water chamber. The apparatus collection hood uses a vacuum and compressor to transfer the post-plasmatic material into refrigerated and/or pressurized tanks. The pressure of the tanks is decided upon the desired consistency and containability of the operator and/or by the instant inventor based upon a sliding variable scale when conjoined and/or configured with the refrigeration level desired toward the post-plasmatic boiling point. The result is The Mini Project Type-A liquid fuel. VII. The apparatus configurable decision making process and application is herein claimed, as well as all other claims made herein, by the instant owner/inventor Thomas Hayes regarding the desire consistency of the liquid fuel material (Type-A) output. Method of process for claim 7: This patent includes the choice of variable scale regarding the refrigeration temperature and/or pressure desired, configurable and/or decided by the owner/inventor Thomas Hayes. This means if the consistency of the liquid fuel material output is three-quarter refrigerated and one-quarter pressurized or one-quarter refrigerated and three-quarter pressurized or any other variation and/or combination of liquid consistency desired including entirely pressurized material at environmental temperature and/or entirely refrigerated material below the liquid boiling point of the output liquid fuel material (Type-A); ownership of the patent and invention herein mention requires that manually applied decisions regarding process either rendered through the logic flow processing unit software input/output/processing specifications regarding apparatus temperature and pressure applied to the liquid fuel material and/or the manual configuration of the apparatus temperature and pressure applied to the liquid fuel material is entirely owned by the instant/owner inventor Thomas Hayes Claim-7 does not negate any of the claims made herein this document and in other documents regarding the liquefaction apparatus described herein. VIII. The on-board internal logic-flow processing unit provides and insure that all configurable mechanical performance requirements of the apparatus electrical underwater graphite rod electrode arching mechanism are met in order to provide a continual electrical arching contacting motion and other apparatus liquefaction processing requirements achieved as described above to attain the maximum carbon after combustion emission output, heat provision and other liquefaction process requirements. Method of process for claim 8: 1) The apparatus is equipped with a programmable electronic device used for the storage and processing of information 2) The Apparatus programmable electronic device mentioned in Method for process for claim (8), part-1 above is equipped with a programmable operating system and application software. IX. The apparatus is equipped with both an input and output board regarding electrical power supply available as input into the apparatus and/or output leaving the apparatus. This is done to make the apparatus available to any new technologies and/or technologies that will be created in the future and/or existing technologies in energy production as an auxiliary satisfaction of apparatus power requirements and/or as used in conjunction with existing apparatus electrical energy produced internally. Additionally should it be desired that a power supply booster be used to further the cost effectiveness of fuel production the apparatus will be able to put such a booster in a loop from an output port, boosted, and returned into the apparatus input port. This makes the instant apparatus also be able to join together any variable number of apparatus for a sharing of power and/or for any other reason desired. Input/output electrical supply ports increase versatility, cost-effectiveness and availability to alternative energy usage such as the harnessing of river eddies for turbine electrical production as an example if desired. 